AMERICAN POWER DEVICES 23E D Mm 0737135 0000008 o mm = tle ory war yee L ! 200mW DO-35 Case American Power Devices offers a ; Nominal Test Maximumt Typical complete line of quality industrial, com- ypet Voltage Current Impedance TCoetticient mercial and military silicon regulators Vz @ tz It Zzt @ Izt Tc and temperature-compensated ref- v mA & */C erences ranging from 200mW to 1W ROTA at. 19 1 040 in DO-7, DO-35 and DO-41 cases. RDA 10.5 5 25 070 All zener diodes are manufactured RDI ba 12.8 5 35 .075 in double plug packages making the BO TCA 15.8 3 35 080 devices rugged and highly reliable. RD24A 23.5 5 150 .090 This technique results in zener diodes RD29A 28.5 2 250 095 with low leakage current, uniform sharp Standard tolerances of 5, 10; and 20% are available $Zener impedance is derived from the ikHz voltage created when AC current with RMS value of 10% of DC zener reverse breakdown voltages and uni- test current is superimposed on the test current. form heat dissipation. Most series are available in standard voltage tolerances of 5, 10 and 20%. 250mW DO-35 Case In most cases they may be ordered in tighter tolerances of 1 and 2%. Typet Noeee crest Ma Temvorature Applications for these zener diodes aaa i impedanes__7_Coetficlent_ are in voltage regulator circuits, tem- Za at AK aa TC perature compensating circuits, and 1N703 3,45 55.0 ~07 in clipping, shunting and coupling 1N704 4.1 45.0 ~.06 applications 1N705 4,85 10 35.0 +.03 . . 1N706 5.8 20.0 .038 Test measurement of nominal zener 1N707 7A 10.0 .050 voltage (Vz) is performed under stabi- +Standard tolerance af 10% lized DC conditions, never as a pulse +Zener impedance is derived from the 1kHz voltage created when AC current with RMS value of 10% of DC zener test current is ae superimposed on the test current. measur ement. This insures that our The A version of this serles has a 5mA test current. nominal zener voltage specifications will comply with your requirements. 250mW DO-35 Case Nominal Maximum: Typical Typet Zener cnet Dynamic * Temperature Voltage Impedance Coefficient Vz @ Izr Izr Zz1 @ Izt Te Vv mA Q %/C 1N708 5.6 2.6 .038 1N709 6.2 4.1 .038 1N710 6.8 25 4.7 .038 iN711 7.6 5.3 .048 1N712 8.2 6.0 .053 1N713 9.4 7.0 .060 1N714 10.0 12 8.0 061 1N715 11.0 9.0 .065 1IN716 12 10 .068 1N717 1 1 .070 1N718 15 12 13 .072 1N719 16 15 .074 1N720 18 17 .077 IN724 20 20 081 1N722 22 24 .083 1N723 24 28 .085 1N724 27 4 35 .088 IN725 30 42 .089 1N726 33 50 .090 1N727 36.0 60 .093 1N728 39.0 70 .094 1N729 43.0 4 84 095 1N730 47.0 98 .095 1N731 51.0 115 .096 1N732 56.0 140 096 1N733 62.0 170 .097 1N734 68.0 2 200 .097 1N735 75.0 240 .098 1N736 82.0 280 .098 +Standard tolerances of 5, 10, and 20% are available no suffix is +: 10% tolerance, A suffix is +5% tolerance, and B" Suffix Is +20% tolerance. Consult factory for #2% and +1% tolerances. $Zener impedance Is derived from the 1kHz voltage created when AC current with RMS value of 10% of DC zener test current is superimposed on the test current. > AWS 4 SEMICONDUCTORS! L. 4316 6-13 AMERICAN POWER DEVICES 23 D mm 0237135 0000007 2 m= T-U-G7 j 1 / ZENER DIODES | | 250mW DO-35 Case DO-35 Case Nominal Maximum: Typical Typet Zener olet Dynamle Temperature Voltage urrent Impedance Coefficient wor eee co) leosomax Vz @ lar Izr Zz @ Izr Tc THIS ZONE Vv mA 2 %/C 1N763-1 6.5 20 50 4 1N763-2 7.0 10 7 040 (c) rae 36 1N763-3 7.5 10 7 | 022 1N764 8.75 883-41 [e-$00-s]4e 128 ole- 500 1N764-1 8.0 1N764-2 8.5 10 12 .050 1N764-3 9.0 1N764-4 9.5 IN765 10.5 1N765-1 10.0 5 45 .060 1N765-2 11.0 1N766 12.75 1N766-1 12.0 5 55 .070 IN766-2 13.0 1N766-3 14.0 1N767 15.75 1N767-1 15.0 5 70 .080 1N767-2 16.0 1N767-3 17.0 1IN768 19 1N768-1 18 5 100 -080 1N768-2 19 1N768-3 20 1N769 23.5 1N769-1 22.0 5 150 -090 1N769-2 24.0 1N769-3 26.0 tStandard types are +10% tolerance, -1, -2, -3, and -4 suffixes denote +5% tolerance. Zener impedance is derived from the ikHz voltage created when AC current with RMS value of 10% of DC zener test current is superimposed on the test current. 250mW DO-35 Case DO-35 Case Nominal Maximum Typical Test T Zz D fk T t vet vane current Dynan. emperature Vz @ Izr Izt Zzt @ lzt Tc Vv mA 2 {C 1N4099 6.8 1N4100 7.5 _ 1N4101 8.2 _ 1N4102 8.7 0.25 200 1N4103 9.1 _ 1N4104 10.0 _ 1N4105 1i _ 1N4106 12 _ 1N4107 13 0.25 200 _ 1N4108 14 _ 1N4109 15 _ 1N4110 16 100 _ 1N4411 17 100 ~ 1N4112 18 0.25 100 -_ 1N4113 19 150 _ 1N4114 20 150 _ 1N4115 22 _ 1N4116 24 1N4117 25 0.25 150 _ 1N4118 27 _ 1N4119 28 _ 1N4120 30 _ 1N4121 33 0.25 200 _ 1N4122 36 1N4123 39 _ 1N4124 43 250 1N4125 47 250 _ 1N4126 51 0.25 300 _ 1N4127 56 300 _ 1N4128 60 400 1N4129 62 500 _ 1N4130 68 0.25 700 _ 1N4131 75 . 700 _ 1N4132 82 800 _ Standard tolerance of +5%. }#Zener impedance Is derived from the 1kHz voltage created when AC current with RMS value of 10% of DC zener test current is superimposed on the test current. 4317 G-14